The general formalism of nucleon recoil polarization in the (e,e'N N) reaction is given. Numerical predictions are presented for the components of the outgoing proton polarization and of the polarization transfer coefficient in the specific case of the exclusive 16O(e,e'pp)14C knockout reaction leading to discrete states in the residual nucleus. Reaction calculations are performed in a direct knockout framework where final-state interactions and one-body and two-body currents are included. The two-nucleon overlap integrals are obtained
from a calculation of the two-proton spectral function of 16O where long-range and short-range correlations are
consistently included. The comparison of results obtained in different kinematics confirms that resolution of
different final states in the 16O(e,e'pp)14C reaction may act as a filter to disentangle and separately investigate
the reaction processes due to short-range correlations and two-body currents and indicates that measurements
of the components of the outgoing proton polarization may offer good opportunities to study short-range
correlations.

The general formalism of nucleon recoil polarization in the (e,e'N N) reaction is given. Numerical predictions are presented for the components of the outgoing proton polarization and of the polarization transfer coefficient in the specific case of the exclusive 16O(e,e'pp)14C knockout reaction leading to discrete states in the residual nucleus. Reaction calculations are performed in a direct knockout framework where final-state interactions and one-body and two-body currents are included. The two-nucleon overlap integrals are obtained
from a calculation of the two-proton spectral function of 16O where long-range and short-range correlations are
consistently included. The comparison of results obtained in different kinematics confirms that resolution of
different final states in the 16O(e,e'pp)14C reaction may act as a filter to disentangle and separately investigate
the reaction processes due to short-range correlations and two-body currents and indicates that measurements
of the components of the outgoing proton polarization may offer good opportunities to study short-range
correlations.